Secondary battery and method for fabricating the same

What is claimed is: 1. A secondary battery, having a sealed structure such that an electrode assembly of positive electrode plate/separator/negative electrode plate is embedded in a pouch case and an electrode tab of the electrode assembly is joined to an electrode lead and juts outside, wherein the electrode tab is welded to a side surface perpendicular to a surface-wise direction of the secondary battery on the electrode lead arranged parallel to the surface-wise direction of the secondary battery, to form a welded part in a thickness-wise direction of the electrode lead between the electrode lead and the electrode tab, wherein the secondary battery has an overall length, an overall width, and an overall thickness extending in the thickness-wise direction, and wherein the overall thickness is less than each of the overall length and overall width. 2. The secondary battery according to claim 1 , wherein the welded part is formed by welding one end of the electrode tab to the side surface of the electrode lead. 3. The secondary battery according to claim 1 , wherein the electrode tab is multiple in number, the multiple electrode tabs are joined together to the side surface of the electrode lead by welding to form the welded part, and a thickness of the electrode lead is thicker than the sum of thicknesses of the multiple electrode tabs. 4. The secondary battery according to claim 1 , wherein one end part of the electrode tab is bent 180 degrees and folded in dual layers to increase the thickness, and a bent part is welded to the side surface of the electrode lead to form the welded part. 5. The secondary battery according to claim 4 , wherein the electrode tab is multiple in number and the multiple electrode tabs are bent together. 6. The secondary battery according to claim 4 , wherein the electrode tab is multiple in number and the electrode tabs are individually bent. 7. The secondary battery according to claim 6 , wherein the electrode tabs are stacked in the thickness-wise direction. 8. The secondary battery according to claim 1 , wherein the welded part has a width in a length-wise direction of the electrode lead that is less than or equal to 1 mm. 9. A method for fabricating a secondary battery, the secondary battery having a sealed structure such that an electrode assembly of positive electrode plate/separator/negative electrode plate is embedded in a pouch case and an electrode tab of the electrode assembly is joined to an electrode lead and juts outside, the method comprising: welding the electrode tab to a side surface perpendicular to a surface-wise direction of the secondary battery on the electrode lead arranged parallel to the surface-wise direction of the secondary battery, to form a welded part in a thickness-wise direction of the electrode lead between the electrode lead and the electrode tab, wherein the secondary battery has an overall length, an overall width, and an overall thickness extending in the thickness-wise direction, and wherein the overall thickness is less than each of the overall length and overall width. 10. The method for fabricating a secondary battery according to claim 9 , wherein the welded part is formed by welding one end of the electrode tab to the side surface of the electrode lead. 11. The method for fabricating a secondary battery according to claim 9 , wherein the electrode tab is multiple in number, the multiple electrode tabs are joined together to the side surface of the electrode lead by welding to form the welded part, and a thickness of the electrode lead is thicker than the sum of thicknesses of the multiple electrode tabs. 12. The method for fabricating a secondary battery according to claim 9 , wherein one end part of the electrode tab is bent 180 degrees and folded in dual layers to increase the thickness, and a bent part is welded to the side surface of the electrode lead to form the welded part. 13. The method for fabricating a secondary battery according to claim 12 , wherein the electrode tab is multiple in number and the multiple electrode tabs are bent together. 14. The method for fabricating a secondary battery according to claim 12 , wherein the electrode tab is multiple in number and the electrode tabs are individually bent. 15. The method for fabricating a secondary battery according to claim 14 , wherein the electrode tabs are stacked in the thickness-wise direction. 16. The method for fabricating a secondary battery according to claim 9 , wherein the welding is performed by friction stir welding.